Dr. Jiawei Wu | Renewable Energy Systems | Renewable Electrical Innovation Award

Published on by Electrical Engineering

Dr. Jiawei Wu | Renewable Energy Systems | Renewable Electrical Innovation Award

Global Energy Interconnection Group | China

Wu Jiawei is a Researcher at the Technology and Information Research Institute of Global Energy Interconnection Group Co., Ltd., with expertise in new energy and power technologies. She holds Bachelor’s degrees in Engineering and Economics and a Doctor of Engineering in electrical engineering, complemented by international academic training. Her professional experience includes progressive research roles, leadership in large-scale renewable energy assessment platforms, and contributions to national and global clean energy planning initiatives. Her research focuses on clean energy resource assessment, power meteorology, renewable energy system optimization, and electric-hydrogen-carbon coupling, with a strong record of high-impact journal publications and authoritative reports. Her scholarly output includes 81 documents, receiving 1,750 citations from 1,261 documents with an h-index of 22. She has earned multiple best paper and innovation awards, recognition as a highly cited scholar, selection to a national young scientific leadership program, and active engagement in international academic and professional communities.

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Featured Publications

Sushil Kumar | Renewable Energy Systems | Research Excellence Award

Published on by Electrical Engineering

Assist. Prof. Dr. Sushil Kumar | Renewable Energy Systems | Research Excellence Award

Assistant Professor | National Institute of Technology Jamshedpur | India

Sushil Kumar is a Research Scholar in the Department of Humanities and Social Sciences at Motilal Nehru National Institute of Technology, Allahabad, with expertise in Management and Human Resource Management. He has contributed to empirical and interdisciplinary research that bridges human resource practices with organizational well-being and performance. His achievements include prestigious national fellowships awarded by statutory bodies, participation in advanced research methodology programs, and engagement in academic service roles, underscoring his commitment to scholarly excellence, capacity building, and the advancement of management research, with a scholarly impact reflected by 21 citations, an h-index of 2, and an i10-index of 1.

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Hengrui Ma | Renewable Energy Systems | Research Excellence Award

Published on by Electrical Engineering

Prof. Hengrui Ma | Renewable Energy Systems | Research Excellence Award

Associate Professor | Wuhan University of Technology | China

Prof. Hengrui Ma is an Associate Professor at Wuhan University of Technology and a leading researcher in renewable energy systems, new power systems, and integrated energy systems. He received his Ph.D. from Wuhan University and completed his bachelor’s and master’s degrees in electrical engineering at North China Electric Power University, with a strong specialization in power and energy systems. His professional experience spans academic teaching, advanced research, and technical leadership, including roles as sub-task leader and project leader in major national and industry-funded smart grid and energy system projects. Prof. Ma’s research focuses on renewable energy integration, smart grids, and energy system regulation, resulting in more than 80 peer-reviewed publications, the majority indexed in SCI/EI, high citation impact across major databases, multiple highly cited and influential papers, and substantial contributions to theory and practice in modern power systems.  His scholarly impact is evidenced by 1,561 citations, an h-index of 20, and an i10-index of 34, reflecting the quality, consistency, and international visibility of his research contributions.

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Prof. Qie Sun | Power System Stability & Control | Research Excellence Award

Published on by Electrical Engineering

Prof. Qie Sun | Power System Stability & Control | Research Excellence Award

Director | Shandong University | China

Prof. Qie Sun, Professor and doctoral supervisor at Shandong University and Deputy Dean of the Institute for Advanced Technology, is a leading expert in sustainable energy systems, thermal science, and integrated energy system optimization. He holds a doctorate in Industrial Ecology from the Royal Institute of Technology and bachelor’s and master’s degrees in management from Ocean University of China. His professional experience encompasses academic leadership roles, major interdisciplinary collaborations, and the management of high-impact projects in multi-energy systems, CO₂ capture and utilization, thermal management technologies, and energy storage solutions. He has led and contributed to numerous national and provincial research initiatives and played a key role in the thermal control research of the Alpha Magnetic Spectrometer. His research focuses on integrated energy systems, system flexibility under uncertainty, multi-energy coupling modeling, thermal management for electronics and wearable devices, urban energy systems, and industrial ecology, supported by extensive scholarly output that includes over 140 documents, 5,302 citations, and an h-index of 33. Prof. Sun has received multiple honors, including global top scientist recognitions, best paper awards, outstanding reviewer awards, and teaching excellence distinctions. He serves as Assistant Editor of Advances in Applied Energy, Associate Editor for several prominent journals, reviewer for numerous high-impact publications, and an active member of professional bodies such as IEEE and the Chinese Society of Engineering Thermophysics. Through his editorial leadership, scientific committee roles, and contributions to international conferences, Prof. Sun continues to advance innovation and global scholarship in sustainable energy research.

Profile: Scopus

Featured Publications

Sun, Q.*, The flexibility of a molten salt thermal energy storage (TES)-integrated coal-fired power plant. Applied Energy, 2025.

Sun, Q.*, Dynamically tunable silica hydrogel windows enabled by hydration state control for enhanced building energy efficiency. Applied Thermal Engineering, 2025.

Sun, Q.*, Impact of dust composition on parabolic trough concentrator performance across diverse regions. Solar Energy, 2025.

Sun, Q.*, The review of key furnaces in CaC₂ smelting process under the background of carbon neutrality. Review, 2025.

Sun, Q.*, A thin and lightweight miniature loop heat pipe for cooling mobile electronic devices. Device, 2025.

Prof. Dong Jiang | Energy Storage Systems | Best Researcher Award

Published on by Electrical Engineering

Prof. Dong Jiang | Energy Storage Systems | Best Researcher Award

Professor | Huazhong University of Science and Technology | China

Professor Dong Jiang, a leading scholar at Huazhong University of Science and Technology, is renowned for his expertise in power electronics, advanced motor drives, and electromagnetic interference mitigation. He holds a PhD in Electrical Engineering from the University of Tennessee and both bachelor’s and master’s degrees from Tsinghua University, where he specialized in high-performance converter design and control. His professional background includes service as a Senior Research Scientist and Engineer at the United Technologies Research Center, along with extensive leadership in major national and international research projects focused on multi-functional inverters, magnetic bearing systems, and high-reliability motor controllers. His research contributions span PWM converter optimization, EMI suppression, active magnetic bearings, and modern motor drive technologies, supported by an extensive publication record that includes numerous IEEE journal articles, conference papers, books, and a substantial portfolio of granted patents. He has earned multiple prestigious awards for scientific innovation, impactful publications, and technological breakthroughs while also contributing significantly to the scholarly community as an Associate Editor for IEEE Transactions on Industry Applications, Chairman of the IEEE PELS Wuhan Chapter, IET Fellow, and IEEE Senior Member. With more than 6450 citations, an h-index of 43, and an i10-index of 135, he stands as a highly influential figure in the global power electronics research community.

Profile: Google Scholar

Featured Publications

D. Jiang*, F. Wang, Current-ripple prediction for three-phase PWM converters, IEEE Transactions on Industry Applications 50(1), 531–538.

D. Jiang*, Z. Shen, F. Wang, Common-mode voltage reduction for paralleled inverters, IEEE Transactions on Power Electronics 33(5), 3961–3974.

D. Jiang*, Dead-time effect compensation method based on current ripple prediction for voltage-source inverters, IEEE Transactions on Power Electronics 34(1), 971–983.

D. Jiang*, R. Burgos, F. Wang, D. Boroyevich, Temperature-dependent characteristics of SiC devices: Performance evaluation and loss calculation, IEEE Transactions on Power Electronics 27(2), 1013–1024.

Dr. Amjed Albordhi | Renewable Energy Systems | Editorial Board Member

Published on by Electrical Engineering

Dr. Amjed Albordhi | Renewable Energy Systems | Editorial Board Member

Nassrayhi Power | Southern Technical University | Iraq

Amjed Alwan Kadhim is an electrical engineering specialist and doctoral researcher at the University of Tabriz, recognized for his expertise in electric machine design and power electronics. He holds B.Sc. and M.Sc. degrees in Electrical Engineering from the University of Technology–Baghdad, where he developed strong foundations in machine design, power electronic applications, and system analysis. His professional experience includes contributing to research and development projects focused on high-efficiency electrical machines, advanced converter systems, and performance optimization across modern power applications. His research centers on electric machine modeling, electromagnetic design methodologies, and innovative power electronics integration, supported by growing scholarly contributions and technical publications. He also engages in collaborative academic activities, professional memberships, and technical initiatives that demonstrate his commitment to advancing innovation, maintaining research integrity, and supporting the broader engineering community.

Profile: ORCID

Featured Publications

Amjed Alwan Kadhim, Performance study of low-speed wind energy harvesting by micro wind turbine system. Energy Reports, 2025, DOI: 10.1016/j.egyr.2025.02.046.

Amjed Alwan Kadhim, Thermal performance study using parabolic collector and cavity receiver with nano-storage materials for solar drying of apples in Baghdad, Iraq. Metallurgical and Materials Engineering, 2025, DOI: 10.63278/mme.vi.1604.

Amjed Alwan Kadhim, Coordination of hybrid vehicles strategies to improve fuel consumption and reduce economic cost. Int. J. Power Electron. Drive Syst., 2024, 15(2), 725–732, DOI: 10.11591/ijpeds.v15.i2.pp725-732.

Amjed Kadhim Albordi, Cogging force reduction in PMLSMs using segmented magnets. J. Oper. Autom. Power Eng., 2024.

Assoc. Prof. Dr. Ehsan Akbari | Power Electronics Converters | Best Researcher Award

Published on by Electrical Engineering

Assoc. Prof. Dr. Ehsan Akbari | Power Electronics Converters | Best Researcher Award

Associate Professor | Mazandaran University of Science and Technology | Iran

Dr. Ehsan Akbari is an Associate Professor in the Department of Electrical Engineering at the Mazandaran University of Science and Technology, renowned for his expertise in electrical power engineering, power electronics, and modern energy systems. He holds comprehensive academic qualifications spanning bachelor’s, master’s, and doctoral degrees in Electrical Power Engineering with focused specialization in power quality enhancement, converter control, smart grids, and renewable energy integration. His professional career includes extensive teaching, research leadership, and contributions to major projects involving flexible AC transmission systems, multilevel converters, grid-connected converter control, micro-grid stability, reactive power management, and harmonics mitigation using advanced hybrid filtering techniques. A highly productive scholar, he has authored numerous books along with hundreds of peer-reviewed publications and has secured multiple patents that reflect his commitment to advancing power system reliability and intelligent energy technologies. His academic service includes organizing and contributing to program committees of various scientific conferences, mentoring emerging researchers, and participating in collaborative initiatives that translate theoretical advancements into practical engineering solutions. Dr. Akbari has earned several scientific and technological achievement awards, complemented by professional memberships, editorial engagements, and recognized contributions to the global power engineering community. Citations 1,206 by 962 documents, 58 documents, h-index 20.

Profile: Scopus

Featured Publications

Akbari, E.*, Stationary-frame power regulation for controlling grid-connected three-phase modular multilevel converter with low harmonic under unbalanced voltage. Scientific Reports, 2025.

Akbari, E.*, Flexibility regulation-based economic energy scheduling in multi-microgrids with renewable/non-renewable resource and stationary storage systems considering sustainable computing by hybrid metaheuristic algorithm. Sustainable Computing: Informatics and Systems, 2025.

Akbari, E.*, Capabilities of battery and compressed air storage in the economic energy scheduling and flexibility regulation of multi-microgrids including non-renewable/renewable units. Scientific Reports, 2025.

Akbari, E.*, An optimized ANFIS framework for online voltage stability margin estimation in power systems using the novel Solifugae-inspired optimization algorithm and partial least squares-based dimensionality reduction. Measurement, 2025.

 

Zongyu Gao | Energy Storage Systems | Best Researcher Award

Published on by Electrical Engineering

Zongyu Gao | Energy Storage Systems | Best Researcher Award

Professor | Shihezi University | China

Dr. Zong-Yu Gao, a distinguished researcher and faculty member at ShiHeZi University, is an expert in electric and intelligent agricultural machinery with a focus on renewable energy utilization. He holds a Ph.D. in Mechanical and Electronic Engineering from Beijing University of Technology, an M.S. in Computer Technology and Application, and a B.S. in Automation from Lanzhou JiaoTong University. His professional journey spans roles as Senior Engineer at the Academy of Opto-Electronics, Chinese Academy of Sciences, Lecturer at Beijing Union University, and multiple postdoctoral fellowships in electrical engineering and opto-electronics, demonstrating a strong integration of theory and application. Dr. Gao’s research contributions encompass the development of intelligent agricultural machinery systems, energy-efficient solutions, and the advancement of renewable energy applications in agriculture, leading to impactful publications and practical implementations. He is recognized for his leadership in pioneering projects, mentoring young researchers, and actively contributing to academic collaboration and technology transfer. His dedication to innovation and his record of excellence make him a deserving candidate for the Best Researcher Award.

Profile: Scopus

Featured Publications

Zong-Yu Gao*, Electric agricultural machinery and intelligent agricultural systems for sustainable farming. J. Agric. Eng. Res., Accepted.

Zong-Yu Gao*, Renewable energy utilization and its integration into precision agriculture machinery. Renew. Energy, 2024, 215, 119875.

Zong-Yu Gao*, Development of energy-efficient control systems for intelligent farm equipment. Comput. Electron. Agric., 2023, 205, 107564.

Zong-Yu Gao*, Innovation in electric-powered agricultural machinery for low-carbon farming solutions. Biosyst. Eng., 2022, 218, 45-53.

Kewei Lin | Renewable Energy Systems | Best Researcher Award

Published on by Electrical Engineering

Kewei Lin | Renewable Energy Systems | Best Researcher Award

Assistant Professor | National Kaohsiung University of Science and Technology | Taiwan

Dr. Ke-Wei Lin is an Assistant Professor at the National Kaohsiung University of Science and Technology, specializing in hydrogen energy systems, fuel cells, and clean transportation technologies. He holds a Ph.D. in System and Naval Mechatronic Engineering, as well as M.S. and B.S. degrees in Naval Architecture and Marine Engineering, all from National Cheng Kung University. Dr. Lin’s professional experience includes serving as Senior Engineer and Project Leader at the Automotive Research & Testing Center, where he led initiatives in hybrid powertrain development, fuel cell integration, and advanced clean engine technologies, and as Project Manager at Formosa Petrochemical Corporation. His research focuses on hydrogen energy, fuel cell and Li-ion battery hybrid systems, thermochemical reforming, exergy and techno-economic analysis, and sustainable mobility, with several publications advancing fuel cell vehicle applications and emission reduction strategies. He has contributed as a committee member for the EPA Sustainable Project Loan Review, demonstrating his leadership in environmental and energy policy initiatives. Dr. Lin has been recognized for his impactful research through professional memberships, technical committee roles, and contributions to collaborative industry-academic projects, reinforcing his commitment to advancing renewable energy and green transportation solutions.

Profile: Scopus

Featured Publications

  1. Lin K.W.*, Development of hybrid PEM fuel cell and Li-ion battery systems for next-generation electric vehicles. Int. J. Hydrogen Energy, 2024, Accepted.

  2. Lin K.W.*, Wu H.T., Chen C.Y., Techno-economic analysis of hydrogen production via thermochemical reforming of bioethanol. Energy Convers. Manag., 2023, 297, 117454.

  3. Lin K.W.*, Yang M.S., Exergy and environmental assessment of HT-PEM fuel cell systems for maritime applications. Appl. Energy, 2023, 341, 121052.

  4. Lin K.W.*, Liu P.J., Integration of catalyst development and reforming processes for high-efficiency hydrogen generation. Fuel Process. Technol., 2022, 234, 107339.

  5. Lin K.W.*, Chen S.H., Clean combustion strategies for biodiesel engines: Experimental and modeling approaches. Renew. Energy, 2021, 180, 890–902.